Effect and Mechanism of Glutamic Acid Injection Into Cerebellar Fastigial Nucleus on Chronic Visceral Hypersensitivity in Rats / 胃肠病学

ABSTRACT

Background:Cerebellar fastigial nucleus (FN)is involved in regulation of visceral activities such as cardiovascular, ingestion,respiratory,and acute gastric mucosal injury,yet it is unclear whether it participates in the regulation of visceral hypersensitivity and what is the possible mechanism. Aims:To investigate the effect and possible mechanism of glutamic acid (Glu ) injection into cerebellar FN on chronic visceral hypersensitivity in rats. Methods: Chronic visceral hypersensitivity rat model was established by neonatal colorectal distension (CRD). After 8 weeks,the rats were divided into CRD group,solvent group (0. 2 μL 0. 9% NaCl solution injection into cerebellar FN),high-,medium-,low-dose Glu groups (12,6,3 μg Glu injection into cerebellar FN,respectively),3-MPA +Glu group (12 μg Glu injection after glutamate decarboxylase inhibitor 3-MPA injection into cerebellar FN),Bic + Glu group (12 μg Glu injection into cerebellar FN after GABAAreceptor blocker Bic injection into lateral hypothalamic area). Pain threshold,abdominal withdrawal reflex (AWR)score and abdominal external oblique muscle electromyography (EMG)were used to detect visceral sensitivity,and malondialdehyde (MDA)content and superoxide dismutase (SOD)activity were measured. Results:Chronic visceral hypersensitivity rat model was successfully established. Compared with CRD group,pain threshold was significantly increased (P＜0. 05),AWR score,EMG amplitude,MDA content were significantly decreased (P＜0. 05 ),and SOD activity was significantly increased in a dose-dependent manner in Glu group (P ＜0. 05 ). Compared with 12 μg Glu group,pain threshold was significantly decreased (P＜0. 05),AWR score,EMG amplitude, MDA content were significantly increased (P ＜0. 05),and SOD activity was significantly decreased in 3-MPA +Glu group,Bic+Glu group (P＜0. 05). Conclusions:Glu injection into cerebellar FN can significantly reduce the visceral sensitivity in rats. The mechanism may be that Glu in cerebellar FN produces GABA via glutamate decarboxylase,and then binding GABAAreceptor in lateral hypothalamic area,resulting in increased intestinal mucosal antioxidant capacity, thereby reducing visceral hypersensitivity.